RT Journal Article
T1 The fluctuations of alpha power: Bimodalities, connectivity, and neural mass models
A1 Cabrera Álvarez, Jesús
A1 del Cerro León, Alberto
A1 Carvajal, Blanca P.
A1 Carrasco Gómez, Martín
A1 Alexandersen, Christoffer G.
A1 Bruña Fernández, Ricardo
A1 Maestu Unturbe, Fernando
A1 Susi, Gianluca
AB The alpha rhythm is a hallmark of electrophysiological resting-state brain activity, that serves as a biomarker in health and disease. Alpha power is far from uniform over time, exhibiting dynamic fluctuations. The likelihood of those power values can be captured by a decreasing exponential function, which in certain cases becomes bimodal. While alpha rhythm is usually evaluated through the averaged power spectra across entire recordings, its dynamic fluctuations have received less attention. In this study, we investigate the dynamic nature of alpha power, its relationship with functional connectivity (FC) within the default mode network (DMN), and the ability of the Jansen-Rit (JR) neural mass model to replicate these fluctuations. Using MRI and MEG data from 42 participants in resting state with eyes-closed and eyes-open, we evaluated the shape of the exponential distributions for alpha power fluctuations, and their relationship with other spectral variables as frequency, power, and the aperiodic exponent. Additionally, we assessed the temporal relationship between alpha power and FC using phase-based (ciPLV) and amplitude-based (cAEC) metrics. Finally, we employed diffusion-weighted MRI to construct brain network models incorporating JR neural masses to reproduce and characterize alpha fluctuations. Our results indicate that alpha power predominantly follows unimodal exponential distributions, with bimodalities associated to high-power in posterior regions. FC analyses revealed that ciPLV and cAEC were directly correlated with alpha power within the DMN in alpha and beta bands, whereas only theta-band ciPLV showed an inverse relationship with alpha power. JR model simulations suggested that post- supercritical fixed points better replicated alpha power fluctuations compared to limit cycle parameterizations and pre-saddle node fixed points. These results deepen our understanding of the dynamics of alpha rhythm and its intricate relationship with FC patterns, offering novel insights to refine biologically plausible brain simulations and advance computational models of neural dynamics.
PB Massachusetts Institute of Technology Press
YR 2025
FD 2025
LK https://hdl.handle.net/20.500.14352/134596
UL https://hdl.handle.net/20.500.14352/134596
LA eng
NO Cabrera-Álvarez, J., del Cerro-León, A., Carvajal, B. P., Carrasco-Gómez, M., Alexandersen, C. G., Bruña, R., ... & Susi, G. (2025). The fluctuations of alpha power: bimodalities, connectivity, and neural mass models. Imaging Neuroscience, 3, IMAG-a.
NO © 2025 The Authors.FPU2019-04251
NO Ministerio de Ciencia Innovación y Universidades (España)
NO National Institutes of Health (US)
DS Docta Complutense
RD 30 abr 2026